TUNA RESEARCH IN INDIA
Edited by
D. SUDARSAN AND M. E. JOHN
FISHERY SURVEY OF INDIA Botawala Chambers, Sir. P. M. Road
"-
Bombay 400 001
September 1993
EFFECT OF ENVIRONMENTAL FLUCTUATIONS ON COASTAL TUNA FISHERIES
M. S. RAJAGOPALAN, P. S. B. R. JAMES AND N. G. K. PILLAI Celltral Marille Fisheries Research Il15tinlle, Cochill
It is generally recognised that fluctuatiops in the environmental parameters in the seas have a significant influence on the life history, abundance and migratory habits of fishes. It is well known that along the south west coast of India seasonal ab~ndance and migration towards coastal area by pelagic species such as oil sardine and mackerel are governed by several meteorological and oceanographic parameters such as seawater temperature, salinity, pH, upwelling, nutrient concentration and plankton production which are in turn influenced by wind, rainfall and coastal currents. As regards coastal species of tunas such as EuthYllnus a/fillis, AllXis lhazard, A. roclte; and Sardo onentalis, their abundance as evidenced by their total catch and catch per effort indicate certain seasonal trends. In recent years (1989-91) their monthly catch in a standard gear such as drift net is indicated in Table 1. It can be observed that the best catch rates for theese species are obtained during June to October off Vizhinijam; July to October at Cochin and during August to October at cali cut.
An attempt is made to correlate the general environmental parameters wiih the seasons of abundance of coastal tunas based on the data collected at Cochin, Calicut and Vizhinjam.
Sea surface temperature
Variations in surface isotherms in the Arabian sea during different seasons are given in Fig. 1. Generally surface temperatures are low in November-December in this sea and high during May. In the coastal areas off Cochin, SST mean increases from 27°C in January to 31° in April-May and steadily declines during monsoon months to about 26-2~C in
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Table /. MOlllh-wise average catch (kg) alld calch role (kg) of coaslallllllas lallded by drifl gillllellers 01 Vizhilljam, Cochill alld Ca/icul durillg Ihe years /989-9/
Vizhinjam Cochin CaJicut
,
January 129536 23.0 27195 64.3 11485 16.3
February 124464 22.9 27719 53.3 6685 9.9
:"Aarch 169640 24.3 21478 42.4 6686 14.0
April 308680 39.3 41761 53.3 6636 15.8
~ay 286252 26.9 143929 86.9 12729 29.7
June 157960 25.7 118282 85.7 No fishing
July 195151 23.8 111739 63.2 No fishing
August 241837 37.1 88709 59.2 25690 71.4
Seprent-cr 238047 24.3 156445 90.9 39722 56.5
October 268298 31.3 106705 89.9 63021 79.2
~(M:mher 205144 17.8 1232-1 14.0 15254 18.4
December 135697 17.2 20432 44.2 8287 9.3
Augusl-September. BOllom temperature at 20-30 m depth shows a decline from 29°C in April to 23°C in September. At Calicut, surface temperature rises from 21'C in January to 31°C in Apirl-May and drops to 25°C in July.
Similarly at Vizhinjam the peak of sea water temperature is usually observed in May and the low values during August. A secondary peak in temperature usually occurs in October in these centres.
Salinity values
Surface sa.tinity values reach a peak (34-35%0) during April-May off Cochin and drop to 20-21 %0 during the monsoon months. Bottom salinity values range from 34 to 35%0 during this period. At Calicut salinity values decline from 36%0 in April to 29%0 in July. At Vizhinjam salinity values do not show much fluctuation between April and July (34-35%0).
Dissolved oxygen
The surface 02 values do not indicate much fluctuation at these centres during monsoon months. But the bOllom oxygen values show a marked decline from about 2.0 to 1.0 mVI during July to September.
ISO
SST. ISOTHERMS n··
14···
2~
'"\.,//
27 ...
.'7
····24 ,"\ .. 2:,0'
.... 2t
... "
JAN
APR
JUL
OCT
Fig. 1. Seasollo/l'ariotio1l.s in surface isothenns
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The above features along the south west coast are indicative of intense upwelling in the coastal region during the monsoon and immediate post-monsoon months.
Primary production
Gross primary produc!ion rates show mean values of 0.8, 1.4 and 0.9
gC/m3/day at 20 m depth stations off Cochin during pre-monsoon, monsoon
and post-monsoon respectively. Though some variations have been observed as regards the peak period of primary production, it is generally the monsoon period which accounts for the maximum production. Similar trend is usually observed off Calicut, but not so at Vizhinjam. A close correlation has also been observed between primary production and abundance of nutrients such as phosphates and nitrates during the monsoon months and generally low nutrient concentration during post-monsoon months. The general pattern of primary productivity along our coast is given in Fig.2.
Secondary production
Zooplankton displacement volume generally remain low during April to August but show a significant rise during September to October. This increase coincides with numerically abundant groups such as copepods, chaetognaths, appendicularians, lucifers and fish larvae occurring from October onwards. Blooms of Fragilaria oceanica and Nocliluca mi/iaris also occur during July to September-October period.
Surface currents
Seasonal changes in the surface current patterns in Indian Ocean are given in Fig.3. Tbis would indicate the likely influence of coastal currents on environmental parameters and coastal fisheries for tunas.
Discussion
While examining the catch and catch/effort data at Vizhinjam, Cochin and Calicut as a sample case, it is observed that a temperature peak in May coincides with a small peak in C/E rate of coastal tunas at Cochin and Calicut, whereas the C/E ratio reaches a peak in April. The major peaks of C/E occurs in April at Vizhinjam, September at Cochin and October at
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PRIMARY PRODUCTION
• • , ..
~
1'1..
)L-______________________________ -!O'
Fig.2. Gmerallevds of primary productivil), in our coastal walers
SURFACE CURENTS FEB-MAR
AUO-SEP 0'
0'
Fig.3. Seasonal changes in surface current patterns in lhe Indian Ocean
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Calicut. At Cochin and Calicut these peaks can be correlated with a secondary peak in temperature.
During April-May salinity values are generally high at Cachin and Calicut and there is a drop in July. There is a corresponding drop in C/E during July at Vizhinjam and Cochin. No fishing was done at Calicut during this period. Due to upwelling the bottom oxygen values are less during July to September. Immediately after this period the C/E rates are high in October at all the above centres.
Levels of primary production are high during monsoon months.
Secondary production rates are high during September-October. This peak coincides with high catch of tunas during October.
Also, Silas and Pillai (1982) have drawn attention to wind speeds exceeding a level of 8 m/sec as a constraint of certain fishing operations such as purse seining. While drift gillnets are mainly operated at Cochin and Calicut, hook & line fishing and trolling are also done at Vizhinjam. Wind speeds show some relations to catches during certain months during July-September at these centres.
The common coastal species of tunas such as the little tunny and frigate tuna prefer a temperature range of 17-28°C and the long tail tuna 25-32°C (Sharp, 1979). According to Sharp (1979) the oxygen values are likely to act as a limiting feature for tuna distribution in the northern Indian Ocean. Silas and Pillai (1982) have produced SST isotherm charts for different months.
These charts indicate that along the west coast the isotherms 27-28°C prevail during January-March; 29°C during April-May; 2~C during June-September and 28°C during October-December. They have also indicated through charts reproduced from Sharp (1979) the areas where 20°C isotherm and 2.5 mVl oxygen content emerge to 80-50 m depth and also close to the surface.
This emergence happens during January-March in the northern latitudes along our coast (15-23°); during April along south east coast; June to October along the west coast; also August-September along north east coast and along both the coasts during November.
The depth of mixed layer rises to 20 m along the west coast during July-August and goes deeper to 40 m during September-October. The above features are considered as limiting factors to certain species of tunas. Generally along the south west coast the post-monsoon months witness
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the commencement of good fishing season for major pelagic species such as oil sardine and mackerel. During this period, the effect of upwelling also starts getting minimised and there is a warming of sea surface temperature and less turbidity in coastal waters.
The influence of coastal upwelling on tuna abundance has not been established. But upwelling enriches the production of forage organisms. The time lag between the transformation of primary organisms to forage items of tunas and their transportation have to be taken into account.
The increase in C/E during October at Cochin and Calicut may be attributed to time lag between peaks of primary production and secondary production and the supply of forage organisms for coastal tunas after an upwelling period as pointed out by Blackburn (1965).
In conclusion it may be staled that a range of environmental factors, mutually inter-dependent such as temperature, thermocline, coastal currents, upwelling, primary and secondary production and abundance of forage organisms play important roles in the fluctuations in coastal tuna fisheries.
REFERENCES
Blackburn. M. 1965. Oceanography and ecology of tunas. Oceanogr. mar. bioi. Ann. rel'l'ew, 3:
299·322.
Sharp. O. D. 1979. Areas of potentially successful exploitation of tunas in Indian Ocean with emphasis on surface methods. IOP/IOFC/DEV/7947. FAD, Rome.
Silas, E. G .. ~. S. Rajagopalan and P. P. PillaL 1979. Tuna fisheries in India - Recent trends.
Mar. Fish.lllfor. Sen'. T& E SCT., 13: 1-10.
Silas, E. G. and P. P. Pillai. 1982. Resources of lunas and related species and their fisheries in Indian Ocean. Bull. Cenr. Mar. Fish. Res. Ins'. 32:174pp.
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